Mgr. Sojková Michaela, PhD.

Sojková, M., Dobročka, E., Hutár, P., Tašková, V., Pribusová Slušná, L., Stoklas, R., Píš, I., Bondino, F., Munnik, F., and Hulman, M.: High carrier mobility epitaxially aligned PtSe2 films grown by one-zone selenization, Applied Surface Sci 538 (2021) 147936.

1. Lukas, S.: Adv. Function. Mater. 31 (2021) 2102929.
2. Nakazawa, T.: Photonics 8 (2021) 505.
3. Miller, A.M.: Zeit. Naturfor. B-A J. Chem. Sci 77 (2022) 313.

Španková, M., Sojková, M., Dobročka, E., Hutár, P., Bodík, M., Munnik, F., Hulman, M., and Chromik, Š.: Influence of precursor thin-film quality on the structural properties of large-area MoS2 films grown by sulfurization of MoO3 on c-sapphire, Applied Surface Sci 540 (2021) 148240.

1. Zhu, Z.S.: AIP Adv. 12 (2022) 035016.

Hotový, I., Spiess, L., Mikolášek, M., Kostič, I., Sojková, M., Romanus, H., Hulman, M., Buc, D., and Řeháček, V.: Layered WS2 thin films prepared by sulfurization of sputtered W films, Applied Surface Sci 544 (2021) 148719.

1. Cupak, C.: Applied Surface Sci 570 (2021) 151204.
2. Jian, J.Y.: J. Alloys Compounds 895 (2022) 162705.
3. Romanov, R.I.: ACS Omega 6 (2021) 34429.
4. Ren, J.K.: Nanomater. 12 (2022) 1074.
5. Yan, Z.: Tribol. Inter. 170 (2022) 107431.

Bareli, G., Chromik, Š., Camerlingo, C., Talacko, M., Rosová, A., Španková, M., Štrbik, V., Sojková, M., and Jung, G.: Substrate influence on low energy electron beam processing of YBa2Cu3O7−δ thin films, Applied Surface Sci 535 (2021) 147624.

1. Ivanov, Y.F.: Phys. Mesomechan. 25 (2022) 18.

Bodík, M., Sojková, M., Hulman, M., Ťapajna, M., Truchlý, M., Vegso, K., Jergel, M., Majková, E., Španková, M., and Šiffalovič, P.: Friction control by engineering the crystallographic orientation of the lubricating few-layer MoS2 films, Applied Surface Sci 540 (2021) 148328.

1. Golovynskyi, S.: Surfaces. Interfac. 26 (2021) 101343.
2. Sathyamoorthy, G.: Proc. Inst. Mechan. Engn. Part J-J. Engn. Tribol. 236 (2022) 1674.

Shaji, A., Vegso, K., Sojková, M., Hulman, M., Nádaždy, V., Hutár, P., Pribusová Slušná, L., Hrdá, J., Bodik, M., Hodas, M., Bernstorff, S., Jergel, M., Majková, E., Schreiber, F., and Šiffalovič, P.: Orientation of few-layer MoS2 films: in-situ x-ray scattering study during sulfurization, J. Phys. Chem. C 125 (2021) 9461–9468.

1. Kim, J.H.: Nano Energy 91 (2022) 106693.

Mrkývkova, N., Cernescu, A., Futera, Z., Nebojsa, A., Dubroka, A., Sojková, M., Hulman, M., Majková, E., Jergel, M., Šiffalovič, P., and Schreiber, F.: Nanoimaging of orientational defects in semiconducting organic films, J. Phys. Chem. C 125 (2021) 9229–9235.

1. Rao, V.J.: ACS Nano 15 (2021) 20466.
2. Rikanati, L.: J. Chem. Phys. 155 (2021) 204704.
3. Yan, X.X.: Trends in Chem. 4 (2022) 76.

Rýger, I., Lobotka, P., Steiger, A., Chromik, Š., Lalinský, T., Raida, Z., Pítra, K., Zehetner, J., Španková, M., Gaži, Š., Sojková, M., and Vanko, G.: Uncooled antenna-coupled microbolometer for detection of terahertz radiation, J. Infrared, Millimet., Terahertz Waves 42 (2021) 462–478.

1. Yu, X.: Applied Surface Sci 570 (2021) 151221.
2. Chu, K.L.: J. Alloys Comp. 902 (2022) 163691.
3. Vera-Reveles, G.: Electronics 11 (2022) 1665.
4. Aji, A.P.: Sensors 22 (2022) 5107.

Hagara, J., Mrkývkova, N., Nádaždy, P., Hodas, M., Bodík, M., Jergel, M., Majková, E., Tokár, K., Hutár, P., Sojková, M., Chumakov, A., Konovalov, O., Pandit, P., Roth, S., Hinderhofer, A., Hulman, M., Šiffalovič, P., and Schreiber, F.: Reorientation of π-conjugated molecules on few-layer MoS2 films, Phys. Chem. Chem. Phys. 22 (2020) 3097-3104.

1. Huang, Y.L.: Surface Rev. Lett. 28 (2021) 2140003.
2. Zhao, Y.D.: Chem. Rev. 122 (2022) 50.
3. Oliva, I.G.: Phys. Rev. Mater. 6 (2022) 054004.

Sojková, M., Šiffalovič, P., Babchenko, O., Vanko, G., Dobročka, E., Hagara, J., Mrkývková, N., Majková, E.,  Ižák, T., Kromka, A., and Hulman, M.: Carbide-free one-zone sulfurization method grows thin MoS2 layers on polycrystalline CVD diamond, Sci Rep. 9 (2019) 2001.

1. Ou, N. C.: Organometall. 39 (2020) 956.
2. Mouloua, D.: Materials 14 (2021) 3283.
3. Goel, N.: Nanotechnol. 32 (2021) 375711.
4. Bhowmik, S.: I SCI 25 (2022) 103832.

Sojková, M., Végso, K., Mrkývkova, N., Hagara, J., Hutár, P., Rosová, A., Čaplovičová, M., Ludacka, U., Skákalová, V., Majková, E., Šiffalovič, P., and Hulman, M.: Tuning the orientation of few-layer MoS2 films using one-zone sulfurization, RSC Adv. 9 (2019) 29645-29651.

1. Balasubramanyam, S.: ACS Applied Mater. Interfaces 12 (2020) 3873.
2. Cichocka, M.O.: ACS Applied Mater. Interfaces 12 (2020) 15867.
3. Lee, J.: ACS Nano 14 (2020) 17114.
4. Navarro-Gamarra, K.E.: J. Phys. Chem. C 125 (2021) 2005.
5. Panasci, S.E.: Nanomater. 12 (2022) 182.

Hutár, P., Španková, M., Sojková, M., Dobročka, E., Végso, K., Hagara, J., Halahovets, Y., Majková, E., Šiffalovič, P., and Hulman, M.: Highly crystalline MoS2 thin films fabricated by sulfurization, Phys. Status Solidi B 256 (2019) 1900342.

1. Johari, M.H.: Nanomater. Nanotechnol.‏ 11 (2021) 1847980420981537.
2. Panasci, S.E.: Nanomater. 12 (2022) 182.

Hulman, M., Sojková, M., Végso, K., Mrkývkova, N., Hagara, J., Hutár, P., Kotrusz, P., Hudec, J., Tokar, K., Majková, E., and Šiffalovič, P.: Polarized Raman reveals alignment of few-layer MoS2 films, J. Phys. Chem. C 123 (2019) 29468-29475.

1. Zuo, S.: Mater. Sci Semicond. Process. 121 (2021) 105457.
2. Rahmati, B.: J. Electron. Mater. 50 (2021) 3645.
3. Bai, X.: J. Hazard. Mater. 416 (2021) 125830.
4. Du, Y.H.: J. Phys.-Cond. Matt. 34 (2022) 224001.
5. Guo, Z.L.: ACS Nano 16 (2022) 11268.

Novák, J., Laurenčíková, A., Eliáš, P., Hasenöhrl, S., Sojková, M., Dobročka, E., Kováč, J.jr., Kováč, J., Ďurišová, J., and Pudiš, D.: Nanorods and nanocones for advanced sensor applications, Applied Surface Sci 461 (2018) 61-65.

1. Rajkumar, C.: Results in Phys. 15 (2019) 102647.
2. Rajkumar, C.: Vacuum 168 (2019) UNSP 108856.
3. Chen, Y.: Adv. Mater. 32 (2021) 2001668.

Hotový, I., Spiess, L., Sojková, M., Kostič, I., Mikolášek, M., Predanocy, M., Romanus, H., Hulman, M., and Řeháček, V.: Structural and optical properties of WS2 prepared using sulfurization of different thick sputtered tungsten films, Applied Surface Sci 461 (2018) 133-138.

1. Kumar, P.: Applied Surface Sci 480 (2019) 680.
*      2. Otero-Irurueta, G.: Nanomater. Sci Engn. 1 (2019) 6.
3. Lin, J.: Ceramics Inter. 46 (2020) 218.
4. Dhongade, S.: ACS Applied Nano Mater. 3 (2020) 9749.
5. Xie, Y.: Applied Surface Sci 499 (2020) 143964.
6. Sethulekshmi, A.S.: J. Alloys Comp. 876 (2021) 160107.
7. Romanov, R.I.: ACS Omega 6 (2021) 34429.

Nurgaliev, T., Štrbík, V., Gál, N., Chromik, Š., and Sojková, M.: Electrical transport effects in YBCO/LSMO bilayer junctions, Physica B 550 (2018) 324-331.

1. Bahboh, A.: Ceramics Inter. 45 (2019) 13732.
2. Bghour, M.: Europ. Phys. J.-Applied Phys. 93 (2021) 10601.

Sojková, M., Chromik, Š., Rosová, A., Dobročka, E., Hutár, P., Machajdík, D., Kobzev, A.P., and Hulman, M.: MoS2 thin films prepared by sulfurization, Proc. SPIE 10354 (2017) 103541K-1.

1. Kokalj, D.: Coatings 10 (2020) 755.
2. Ghosh, S.: Energy 203 (2020) 117918.
3. Gupta, D.: Mater. Chem. Phys. 276 (2022) 125422.

Chromik, Š., Camerlingo, C., Sojková, M., Štrbik, V., Talacko, M.,  Malka, I.,  Bar, I., Bareli, G., and Jung, G.: Low energy electron beam processing of YBCO thin films, Applied Surface Sci 395 (2017) 42-49.

1. Wang, S.-S.: Chinese Phys. B 28 (2019) 027401.
2. Li, F.: Physica Scripta 94 (2019) 105820.
3. Juarez-Lopez, J.M.: Mater. Res. Express 7 (2020) 096001.

Štrbík, V., Beňačka, Š., Gaži, Š., Španková, M., Šmatko, V., Knoška, J., Gál, N., Chromik, Š., Sojková, M., and Pisarčík, M.: Superconductor-ferromagnet-superconductor nanojunctions from perovskite materials, Applied Surface Sci 395 (2017) 237-240.

1. Ma, L.: Sensors Actuators B 255 (2018) 2546.
2. Liu, X.: J. Alloys Compounds 772 (2019) 263.

Chromik, Š., Sojková, M., Vretenár, V., Rosová, A., Dobročka, E., and Hulman, M.: Influence of GaN/AlGaN/GaN (0001) and Si (100) substrates on structural properties of extremely thin MoS2 films grown by pulsed laser deposition, Applied Surface Sci 395 (2017) 232-236.

1. Li, D.: Applied Surface Sci 421 (2017) 884.
2. Hao, L.: Nanoscale Research Lett. 12 (2017) 567.
3. Yao, J.: ACS Applied Mater. Interfaces 10 (2018) 38166.
4. Rozenfeld, S.: Bioelectrochem. 123 (2018) 201.
5. Wang, W.: J. Mater. Chem. C 6 (2018) 6641.
6. Banday, S.: J. Tribol.-Trans. ASME 141 (2019) 022003.
7. Wu, Z.: Mater. Today Nano 12 (2020) 100092.
8. Yang, G.: IEEE Photon. J. 13 (2021) 2200105.
9. Yadav, G.: Optical Mater. 131 ( 2022) 112603.

Sojková, M., Štrbik, V., Nurgaliev, T., Chromik, Š., Dobročka, E., Španková, M., Nurgaliev, T., Blagoev, B., and Gál, N.: Fabrication of hybrid thin film structures from HTS and CMR materials, J. Phys.:Conf. Ser. 700 (2016) 012022.

#    1. Xie, Q.: Cailiao Daobao/Mater. Rep. 32 (2018) 30-33 and 49.

Nurgaliev, T., Blagoev, B., Štrbik, V., Chromik, Š., and Sojková, M.: Investigation of the resistive properties of HTS/manganite bilayers, J. Phys.:Conf. Ser. 700 (2016) 012020.

1. Marinov, G.: Optical Mater. 89 (2019) 390.

Španková, M., Štrbik, V., Dobročka, E., Chromik, Š., Sojková, M., Zheng, D., and Li, J.: Characterization of epitaxial LSMO thin films with high Curie temperature prepared on different substrates. Vacuum 126 (2016) 24-28.

1. Yang, C.H.: J. Mater. Sci-Mater. Electron. 28 (2017) 3423.
2. Shiota, T.: Thin Solid Films 626 (2017) 154.
3. Zhang, H.: Applied Phys. Lett. 111 (2017) 192408.
4. Zhou, H.: Mater. Research Express 5 (2018) 015001.
5. Sukkurji, P.A.: Materials 11 (2018) 1204.
6. Kumari, S.: Sci Rep.‏ 10 (2020) 3659.
7. Channagoudra, G.: Thin Solid Films 709 (2020) 138132.
8. Balakrishnan, P.: AIP Adv. 11 (2021) 025105.
9. Greculeasa, S.G.: Nanomater. 11 (2021) 3389.
10. Pawlak, J.: Adv. Electron. Mater. 8 (2022) 2100574.

Španková, M., Rosová, A., Dobročka, E., Chromik, Š., Vávra, I., Štrbik, V., Machajdík, D., Kobzev, A., and Sojková, M.: Structural properties of epitaxial La0.67Sr0.33MnO3 films with increased temperature of metal-insulator transition grown on MgO substrates, Thin Solid Films 583 (2015) 19-24.

1. Wang, H.: Thin Solid Films 599 (2016) 27.
2. Wang, H.: Thin Solid Films 621 (2017) 1.
3.  Zhou, H.: Mater. Research Express 5 (2018) 015001.
4. Xia, W.: Nanoscale Res. Lett. 15 (2020) 9.
5. Yan, F.: Thin Solid Films 698 (2020) 137872.
6. Prajapat, C.L.: ACS Applied Electron. Mater. 2 (2020) 2636.

Woch, W.M., Dujavová, A., Przewoznik, J., Zalecki, R., Kolodziejczyk, A., Sojková, M., and Chromik, Š.: Magnetization, susceptibility and critical currents of (Tl2-xRex)Ba2CaCu2Oy thin films, Acta Phys. Polonica A 121 (2012) 845-849.

#       1. Kong, W.: Solid State Phenom. 290 (2019) 227.

Chromik, Š., Gierlowski, P., Španková, M., Dobročka, E., Vávra, I., Štrbik, V., Lalinský, T., Sojková, M., Liday, J., Vogrinčič, P., and Espinos, J.: Preparation and structural properties of YBCO films grown on GaN/c-sapphire hexagonal substrate. Applied Surface Sci 256 (2010) 5618-5622.

#       1. Chen, Z.: He Jishu/Nuclear Techniques 34 (2011) 183.
2. Xue, Y.: Applied Mechanics Material. 117-119 (2012) 811.
3. Panna, D.: Sci Rep. 8 (2018) 5597.
4. Balasubramanian, K.: Adv. Function. Mater.‏ 30 (2020)‏ SI1807379.

Laurenčíková, A., Sojková, M., Chromik, Š., Štrbik, V., and Kostič, I.: Tl-based patterned superconducting structures: fabrication and study, Supercond. Sci Technol. 23 (2010) 045007.

      1. Narasimhachar, V.: Nature Comm. 6 (2015) 7689.
#    2. Chen, M.: Key Engn. Mater. 773 (2018) 162.

Cross, X.L., Zheng, X., Cunningham, P.D., Hayden, L.M., Chromik, Š., Sojková, M., Štrbík, V., Odier, P., and Sobolewski, R.: Pulsed-THz characterization of Hg-based, high-temperature superconductors, IEEE Trans. Applied Supercond. 19 (2009) 3614-3617.

1. Ye, J.C.: J. Supercond. Novel Magnetism 35 (2022) 435.

Laurenčíková, A., Sojková, M., Štrbik, V., Matkovičová, Z., Plesch, G., and Kostič, I.: Influence of the reaction conditions on the formation of Tl(Re)-Ba-Ca-Cu-O superconducting thin films by thallination in open system Central European J. Phys. 5 (2007) 229-235.

1. Chen, Y.F.: Supercond. Sci Technol. 21 (2008) 085005.

Sojková, M., Chromik, Š., Odier, P., and Štrbik, V.: Role of the mercury pressure during reaction synthesis of Hg(Re)-based superconducting films European J. Phys. 5 (2007) 446-456.

#       1. Wu, J.: In High Temperature Superconductors. Weinheim: Wiley 2010 ISBN: 978-3-527-40827-6. P. 153.

Matkovičová, Z., Štrbik, V., Plesch, G., Sojková, M., and Laurenčíková, A.: Tl-based superconducting films prepared by aerosol spray deposition and thallinated in an open system Central European J. Phys. 5 (2007) 398-404.

1. Kalubarme, R.S.: J. Alloys Compounds 479 (2009) 732.
2. Kalubarme, R.S.: J. Supercond. Novel Magnetism 23 (2010) 1313.

Li, X., Khafizov, M., Chromik, Š., Sojková, M., Štrbik, V., Odier, P., and Sobolewski, R.: Ultrafast photoresponse dynamics of current-biased Hg-Ba-Ca-Cu-O superconducting microbridges. IEEE Trans. Applied Supercond. 17 (2007) 3648-3651.

#       1. Wu, J.: In High Temperature Superconductors. Weinheim: Wiley 2010 ISBN: 978-3-527-40827-6. P. 153.
2. Ghamsari, B.: IEEE Trans. Applied Supercond. 21 (2011) 3646.

Sojková, M., Odier, P., Pairis, S., and Štrbik, V.: Do mercury superconducting films grown by vapour phase or by bulk mass transfer?. Physica C 435 (2006) 31-36.

*     1. Ramalhosa,  E.C.D.: In Focus on Water Resource Research. Nova Sci Publ. 2008. ISBN: 978-1-60456-093-0. P. 41-86.